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1.
Article in Chinese | WPRIM | ID: wpr-1017128

ABSTRACT

@#Abstract: To explore the mechanism of the intestinal microecology regulation by polysaccharide prebiotics, ELISA, histopathologic analysis, immunohistochemical analysis, 16S rRNA high-throughput sequencing, and gas chromatography-mass spectrometry were applied to investigate the effects of fermented polysaccharides on changes in the intestinal microbiota and short-chain fatty acids (SCFAs) in mice with dextran sulfate sodium (DSS)-induced colitis model and their relationship with the level of intestinal inflammation and barrier protein expression. It was found that fermented Lycium barbarum polysaccharides (FLBP) significantly reduced intestinal inflammation level, improved colonic tissue structure, up-regulated the expression of tight junction proteins Claudin-1 and ZO-1, and significantly increased the content of intestinal SCFAs in mice. Gut bacteria analyses showed that FLBP enriched intestinal Dubosiella and Akkermansia in mice and decreased the abundance of Turicibacter, Faecalibaculum, and Escherichia-Shigella. Results showed that remodeled Dubosiella activated by FLBP played a dominant role in ameliorating colitis by significantly increasing SCFAs content, improving intestinal barrier and reducing intestinal inflammation. The study aimed to provide a safer and better option for the amelioration of colitis and to provide a theoretical basis for the development of functional foods with FLBP.

2.
Chinese Herbal Medicines ; (4): 564-573, 2023.
Article in English | WPRIM | ID: wpr-1010730

ABSTRACT

OBJECTIVE@#Gut microbiome is an intricate micro-ecosystem mediating the human health and drug efficacy. Physalis alkekengi (PAL) is an edible and time-honored traditional Chinese medicine. Several pharmacological effects of PAL have been verified and gut bacteria are implied in its therapeutic actions. However, the detailed modulation of PAL on gut bacterial species and on gut fungi remains largely unknown. We, therefore, designed a preliminary experiment in normal mice to reveal the modulation effect of PAL on both gut bacteria and fungi, and explore the interaction between them.@*METHODS@#Herein, the aqueous extract of PAL was orally administrated to normal C57BL/6 mice for four weeks. The full-length 16S rRNA and ITS1/2 gene sequencing were explored to detect the taxa of gut bacteria and gut fungi after PAL treatment, respectively.@*RESULTS@#Oral administration of PAL notably enriched anti-inflammatory bacterial species such as Duncaniella spp. and Kineothrix alysoides, whereas decreased pro-inflammatory species such as Mucispirillum schaedleri. Simultaneously, PAL increased the abundance of gut fungi Aspergillus ochraceus, Cladosporium sp. and Alternaria sp., and decreased Penicillium janthinellum. Correlation network analysis identified two co-existing microbial groups (groups 1 and 2) that were negatively associated with each other. The group 1 comprised PAL-enriched bacteria and fungi, while group 2 was mainly normal chow-enriched bacteria and fungi. In group 1, Antrodia monomitica, Aspergillus clavatus, Mortierella kuhlmanii and Sarcinomyces sp. MA 4787 were positively correlated with Bifidobacterium globosum, Romboutsia ilealis and so on. In group 2, Chaetomium subspirilliferum, Septoria orchidearum and Cephaliophora tropica were positively related to Lactobacillus spp.@*CONCLUSION@#Altogether, this preliminary study first demonstrated the modulation effect of PAL on both gut bacteria and gut fungi, which may shed light on the elucidation of PAL's pharmacological mechanism.

3.
Cancer Research and Clinic ; (6): 645-650, 2021.
Article in Chinese | WPRIM | ID: wpr-912940

ABSTRACT

Objective:To explore the effect of oxymatrine on the intestinal flora of mice with colorectal cancer and its related microbial mechanisms.Method:Based on azoxymethane (AOM)-dextran sulfate sodium (DSS) method, 16 5-week-old male BALB/c mice were performed to establish a orthotopic colorectal tumor mouse model. According to the stratified sampling method, mice were divided into the control group and oxymatrine intervention group, 8 in each group. From 5th week, mice in oxymatrine intervention group were given intraperitoneal injection of 10 mg/kg oxymatrine solution every other day; mice in the control group were given the same amount of 0.9% NaCl injection intraperitoneally until the end of the experiment at 81st d of modeling. The body weight of mice was measured every 3 days since the beginning of the modeling; before mice were sacrificed, mouse feces were collected for microbiological and 16S ribosome (rDNA) high-throughput sequencing. The tumor number of colorectal cancer was observed and tumor tissues were taken out. Hematoxylin and eosin (HE) staining was used to evaluate the differentiation degree, the percentage of tumor tissues with all differentiation degrees in the total tumor tissues was calculated, and immunohistochemistry staining was used to test the expression of Ki-67.Results:At the late of the experiment (d 49-d 81 of modeling), the body weight of mice in the control group was lower than that of mice in oxymatrine intervention group [modeling at 81st d: (22.9±0.5) g vs. (24.0±0.5) g, t=2.187, P < 0.05], and the tumor number of intestinal tract in oxymatrine intervention group was lower than that in the control group [(8.5±1.2) vs. (12.0±1.2), t = 2.824, P < 0.05] at the end of experiment. The percentage of well-differentiated tumors in mice intestinal tract in the oxymatrine intervention group was higher than that of mice in the control group [(62.5±3.7)% vs. (25.0±2.6)%], and the expression score of Ki-67 in oxymatrine intervention group was lower compared with that in the control group [(3.2±1.0) scores vs. (6.0±1.0) scores, t = 2.668, P < 0.05). At the phylum level, the abundance of Firmicutes and Proteobacteria in the intestine of mice in oxymatrine intervention group was higher than that in the control group (all P < 0.05), the abundance of Bacteroides in oxymatrine intervention group was lower than that in the control group ( P = 0.037). At the genus level, compared with the control group, the oxymatrine intervention group had a higher abundance of norank_f__Muribaculaceae ( P = 0.001). The abundance of Bacteroides, Odoribacter, Parabacteroides and alloprevotella in oxymatrine intervention group was lower than that in the control group (all P < 0.05). Conclusion:Oxymatrine can decrease the incidence of colorectal cancer in mice and delay development of colorectal cancer by regulating the gut microbiota and sustaining the stability of intestinal flora.

4.
Article in Chinese | WPRIM | ID: wpr-1014983

ABSTRACT

Polysaccharide drugs are a type of safe and effective natural drug with a wide range of pharmacological activity such as anti-tumor, immunomodulation, and oxidation, and polysaccharide drugs are currently more concerned. However, since the molecular weight of the polysaccharide is quite large, most of which do not have ultraviolet absorption and fluorescent groups, which makes the qualitative and quantitative analysis of polysaccharides are relatively difficult. In addition, endogenous sugar substances may also cause certain interference to polysaccharide assay in biological samples, and therefore, in vivo metabolism and PK/PD key technologies in polysaccharide drugs have been research hotspots. This paper summarizes the relevant literature published in recent years, reviewing the biological activity and pharmacokinetics of polysaccharide drugs, proposing gut bacteria may be potential "organ" affecting metabolism and efficacy of polysaccharide drugs, and providing thoughts on gut bacteria mediating polysaccharide drugs in vivo and key technology research of PK/PD, in order to provide more scientific ideas for pharmacokinetics, pharmacological research and molecular mechanisms of polysaccharide drugs.

5.
Yao Xue Xue Bao ; (12): 2008-2018, 2020.
Article in Chinese | WPRIM | ID: wpr-825741

ABSTRACT

Gut microbiota dysbiosis is closely related to a variety of host diseases. Recently, targeting the metabolic pathways of gut microbiota for the prevention and treatment of host diseases has become a frontier strategy and research hotspot. Inflammatory bowel disease (IBD) is a group of chronic progressive intestinal inflammatory diseases of unknown etiology. The relationship between IBD and gut microbiota disorders and bacterial respiratory/energy metabolism has been confirmed in recent research. This article will introduce the relationship among them, and propose a new treatment strategy to alleviate host gut inflammation by regulating gut microbiota respiration and energy metabolism based on the latest research progress. In the progression of IBD, the gut microbiota homeostasis is disturbed. The main reasons include two aspects: on the one hand, when the intestinal inflammation of the host occurs, with increasing of oxygen concentration in the intestinal cavity, facultative anaerobic bacteria, especially Enterobacteriaceae bacteria would proliferate abnormally; while the growth of absolute anaerobic bacteria such as Firmicutes is inhibited. On the other hand, intestinal inflammation by-products also support the expansion of facultative anaerobic bacteria, which ultimately exacerbates the imbalance of gut microbiota. Dysregulated intestinal flora will further disturb intestinal immune homeostasis and exacerbate intestinal inflammation. The latest research proposed the possibility that IBD can be alleviated by interfering with the respiration of bacteria, inhibiting the abnormal proliferation of bacteria, or increasing the level of "beneficial" metabolites of gut microbiota. The above studies suggest that alleviating host intestinal inflammation can be explored by focusing on the metabolic pathways of gut microbiota and regulating the intestinal bacterial respiration and energy metabolism, which is of great significance for the clinical treatment of IBD and the research of innovative drugs.

6.
Yao Xue Xue Bao ; (12): 2267-2276, 2019.
Article in Chinese | WPRIM | ID: wpr-780331

ABSTRACT

Uremic toxins are harmful substances that accumulate in the body when the renal function declines in patients with chronic kidney disease (CKD). It is an important factor contributing to accelerated progression of CKD. There is no effective treatment for reducing uremic toxins. As an extensively used medicine for treatment of CKD in the clinic, Huangkui capsule is effective but the mechanism of its action remains unclear. This study investigated the effect of Huangkui on the accumulation of uremic toxins in CKD rats, with the discussion about its mechanism of action. UPLC-TQ/MS was used to detect the accumulation of uremic toxins in CKD rats after oral gavage with Huangkui. 16S rDNA sequencing technology was used to analyze the gut bacteria composition in rats. HPLC-FLD was used to detect the uremic toxins and their molecular precursors in feces. The effect and mechanism of Huangkui on the uremic toxin precursor in gut bacteria were studied by anaerobic culture system in vitro. All procedures were approved by the Institutional Animal Care and Use Committee of the Nanjing University of Chinese Medicine. The results showed that Huangkui (0.675 g·kg-1) could effectively inhibit the accumulation of uremic toxin indoxyl sulfate (IS) in CKD rats, with IS concentration in rat's plasma, liver and kidney decreased by 49.5%, 68.9% and 40.6%, respectively. Huangkui didn't affect the metabolic pathway of IS in host liver, didn't intervene the process of the IS precursor molecule indole conversion to IS. Instead, Huangkui significantly decreased the indole content in gut, with the indole in CKD rat's feces decreased by 46.4%, suggesting that the gut bacteria may be a target for intervene IS biosynthesis by Huangkui. Huangkui didn't affect the abundance of enterobacteriaceae bacteria (the main gut flora of indole synthesis) in CKD rats, suggesting that Huangkui didn't interfere with indole biosynthesis by directly affecting the abundance of indole synthesis related bacteria. Huangkui at 4 000, 400, 40, and 4 μg·mL-1 showed a dose-dependent inhibition of the indole production by gut bacteria in vitro. The bacteria tryptophan transport concentration decreased from 83.4 μmol·L-1 to 43.6 μmol·L-1 after co-incubated with Huangkui for 12 h, suggesting that Huangkui inhibited indole production of gut bacteria by interfering with tryptophan transportation. These results indicate that gut bacteria may be a potential target for alleviation of uremic toxin accumulation and for delaying CKD progression.

7.
Article in English | WPRIM | ID: wpr-780942

ABSTRACT

Aims@#A simple in vitro model system was applied in this study assessing the dynamics of the microbial community associated with the shrimp gut system to understand the changes that influence dietary variables. @*Methodology and results@#The diversity and abundance of microbiome were monitored within two different treatment slurries inoculated with shrimp faecal samples as to mimic the effect of diet manipulation, and 16S rRNA gene of MiSeq Illumina-based sequencing was applied. The different diets tested were a commercial standard diet and a prodigiosin added diet. There was very clear separation between the commercial standard diet and prodigiosin added diet as revealed by the total viable counts (TVC) and sequencing data. It suggested that the microbial community of the shrimp gut system exhibited a dynamic response with the treatments and allochthonous bacterial present. The prodigiosin added diet was clearly separated from the commercial standard diet serving as a potential shrimp feed additive. The sequencing data analysis showed that members of the genera Vibrio, Shigella and Photobacterium became predominant on the commercial standard diet treatment. The prodigiosin-added diet treatments indicated an abundance of members of the genera Micrococcus, Arthrobacter, and Shigella. @*Conclusion, significance and impact of study@#In vitro model system-based testing of diets could be a useful method to determine the potential effect of diet manipulation on shrimp gut system microbiome members.

8.
Yao Xue Xue Bao ; (12): 1609-1619, 2018.
Article in Chinese | WPRIM | ID: wpr-780039

ABSTRACT

Saponins are important components in traditional Chinese medicine (TCM) with significant biological activities, which could be divided into triterpenoid saponins and steroidal saponins according to structures of the aglycone skeletons. This article reviews the in vivo metabolic pathways of some typical natural saponins such as ginsenosides, licorice saponins, saikosaponins, timosaponins and diosgenin glycosides. Saponins often show poor absorbance after oral administration. The in vivo metabolism of saponins generally contain two steps. These compounds usually undergo hydrolysis in stomach and gut. Then they are absorbed into blood and metabolized in liver. The secondary glycosides and the aglycones produced in gastrointestinal tract often show higher bioavailability and better bioactivity, while downstream metabolites in liver are mainly produced by phase I metabolism. Clarification of the in vivo metabolism of bioactive saponins is helpful for the understanding of the effective ingredients in TCM, as well as the discovery of new drugs from natural products.

9.
Article in Chinese | WPRIM | ID: wpr-463232

ABSTRACT

Objective To investigate the effect of gut bacteria under chronic colitis on the progression of hepatoma in mice.Methods 22 hepatitis B virus (HBV) -transgenic mice ( male, 8 weeks) were randomly divided into two groups, one group (n =10) was fed the drinking water containing 2% dextran sodium sulphate(DSS)to induce chronic colitis and the control group(n =12)was fed with normal drinking water.In order to investigate the effect of gut microbes, 7 male HBV-transgenic mice(8 weeks, with no detectable hepatoma under microscopy) were cohoused with 4 mice with hepatoma for 16 weeks.Results No significant liver cell damage was observed in the group of the mice fed with 2% DSS-containing drinking water.By the 22 -week old,9 of the 10 mice(90.0%) fed with 2% DSS-containing drinking water, 2 of the 12 mice(16.7%) fed with normal drinking had hepatoma.Both the hepatoma incidence and the tumor numbers in the group of mice fed with DSS-containing water were significantly higher than that in the controls (P =0.002 and P =0.028respetively).Compared to controls, the bacteria family Prevotella (P =0.022) and Anaeroplasma (P =0.014) reduced significantly in the mice with induced chronic colitis.All the mice (n =7) cohoused with the mice with hepatoma had the liver tumor developed at 24 -week-old.Conclusion Alterations of gut bacteria under chronic colitis may promote the development of liver cancer.

10.
Braz. arch. biol. technol ; Braz. arch. biol. technol;57(6): 927-932, Nov-Dec/2014. tab, graf
Article in English | LILACS | ID: lil-730399

ABSTRACT

The cellulolytic bacteria from the gut of three different phytophagous insects were studied to isolate novel cellulolytic organism for biofuel industry. Among the threse, gut of P. quatuordecimpunctata larvae contained both highest no of total bacterial count (6.8x107 CFU/gut) and cellulolytic bacteria (5.42x103 CFU/gut). Fifteen different isolates were obtained from the gut of O. velox, A. miliaris and P. quatuordecimpunctata. All the isolates produced clear zone in CMC medium staining with Congo red. The isolates included Gram positive Enterococcus, Microbacterium and Gram negative Aeromonas, Erwinia, Serretia, Flavobacterium, Acenitobacter, Klebsiella, Yersinia, Xenorhabdus, Psedomonas and Photorhabdus. Out of the fifteen isolated and identified bacterial species, twelve bacterial species were novel being reported for first time as having cellulase activity.

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